Vacuum pack machine



Oct. 21, 1952 F. G. PASOTTI 2,614,739

VACUUM PACK MACHINE Filed Aug. 30, 1946 5 sheets sheet l HIS ATTORNEYS Oct. 21, 1952 F. G. PASOTTI 2,614,739

VACUUM PACK MACHINE Filed Aug. 30, 1946 5 Sheets-Sheet 2 q HIS ATTORNEYS Oct. 21, 1952 F. G. PASOTTI 2,614,739

VACUUM PACK MACHINE Filed Aug. 50, 1946 5 Sheets-Sheet 5 H1 5. "4s 57 L! 58 g F 4 kfis'i 54 BY I VII IIIIIIIIIIII Oct. 21, 1952 F. G. PASOTTI 2,614,739

VACUUM PACK MACHINE Filed Aug. so, 1946 5 Sheets-Sheet 4 INVENTOR HIS ATTORNEYS Oct. 21,1952 PASOTT' 2,614,739

VACUUM PACK MACHINE Filed Aug. 30, 1946 5 Sheets-Sheet 5 HIS ATTORNEYS f ings, mayonnaise, etc.

Patented Oct. 21, 1952 Felice George Pasotti, Muncie, Ind., assignor to Ball Brothers Company, a corporation of In- Application August 30,1946, Serial No. 694,132

/ 19 laims.

This invention relates to vacuum pack machines; i. e., machine capable'of withdrawing all' or substantially all of the air from .the interior of a 'receptac1e-suchas a food container'-and for sealing the receptacleby means of an applied closure while the interior thereof is thus subjected tosub-atmospheric or vacuum pressure.

(craze-s2) An object of the invention is to produce a vaoue I um pack machine which is highly eifective'and which maybe employed in the operation of vacuum packing light, dry materials, such for example as finely ground coifee, as well as other materials, such for example as peanut butter, saladdress- A further object of the invention is to such a machine which is of relatively'simple construction and is capable of receiving containers" from a conveyor mechanism, exhausting the air from each such container and then hermetically sealing it and all without occasioning'objectionable movement of the food substance or other material within the container, and independently of the type or character of such material. 1 c A- further object is to produce a machine of the character here described in which the steps of moving a receptacleto place on the machine, va-cuumizing the interior thereof, hermetically sealing the container and then delivering it toa produce conveyor or receivin table, are all accomplished;

automatically and at a rate such as to keep pace with'modern bottle or container filling machines.

. These and other objects are attained by means of "apparatus embodying the features herein de- Figure v8 is a sectional view of the part shown in Figure 7,; the section being taken along the line VIII-VIII of Figure 7.

Figure 9 is a plan view of a vacuum control plate which is adapted to cooperate with the parts shown in- Figures 5, 6, 7 and 8 in controlling the rate at which the vacuum is applied to each container, prior to the operation of sealing the same. r

Figure 10 is asectional view taken through the I line X-X of Figure 9.

Figure 11 is a fragmental plan view of a portion of the machine and discloses a preferred form of bracket for supporting a cam and a gear actuating rack, which constitute details of my invention.

Figure 12 is a .sideelevation of the bracket shown in Figure 11. I

Figure '13 is a sectional view along the line XIII-XIII of Figure 11 and disclosesa springpressed cam. v I

Figure 14 is a somewhat diagrammatic view, on

an enlarged scale, of-a portion of the apparatus shown in Figure 2.

The machine illustrated as an embodiment of I my invention is adapted to receive jars or similar containers, 1 having, closures loosely applied or fitted thereto. .The machine is "provided with a selector device which cooperates with a conveyor in such a Way as to separate a container from others on the conveyor and move it onto a rotating table where it is accurately positioned below a mechanism which, in the illustrated embodiment scribed and illustrated in the accompanying drawings "in which Figure 1 is a vertical sectional elevation of a" machine embodying the invention. Figure'2 is a ,jdiagrammatic plan view of the,

machine shown in association with aconveyor,

mechanism which may be so associated'with the machine as to form a part thereof. j

Figure 3 is'a fragmental plan view and illustrates a part of the loading mechanism forming a detail-of the machine disclosed in Figures 1 and2.

Figure 4 is afragmental, sectional elevation in which the section is taken on a central'plane through an air chine.

Figure 5 is a plan view of a portion of a vacu urn-control valve forming a part of the machine.

Figure 6 is a sectional elevation of "the part shown in Figure 5; the section beingtaken along theline VI-VI.- I l bell forming a detail of the ma- Figure 7 is a plan view of a portion of the vacuum-controlvalvawhich cooperates with the part thereof illustrated in Figures 5 and 6.

may be termed a -combined vacuum-a'pplyingand closure sealing mechanism. While any conveni 'gnumberof these {mechanisms may beemployed, the machine illustrated is equipped with four such mechanisms, spaced apart with relation to the rotating-table, and all four are mm yable with the table.

During each rotation of the table, each such mechanism-moves downwardly to engage a container in such a way as to enclose theneck finish thereof and, consequently, the closure, loosely fitted thereon, within a vacuum-applying device,

which I refer to as an air bell. Ihis downward movement also contributes to the engagement of the cover-securing means with a cover loosely fitted to the container and is a preliminaryto moving the clos'ure'to a position such that ither metically seals the interior of the container;

The air bell is provided with a ring-shaped gasket or lip whichengages the exterior surface of the container in'such a way as to seal the in- 'terior of the bell and, consequently, the interior vacuum-applying and closure-sealing device is lifted out of contact with it and the container is moved from the table onto a, conveyor or other receiving device. g v

A feature of my invention'is' that th'e'a'irpres sure is gradually reduced within the container and under conditions such that-1a high vacuum is eventally applied to the interior thereof but without unduly disturbing (causing excessiv'e'move ment of) the food or other material in the container. This is particularly important where dry, fiuffy or light material is involved or evenwhere material such as ground coffee is that being sub jected to the dry pack procedure;

Difficulty has been encountered in the dry packing of even such materials as ground coffee, due to the fact that the movementof air from the container, in the operationof applying vacuum to the interior thereof, not only causes a movement of the dry material withinthe container but under some conditions, will occasion movement such that some: such material leaves the container and tends to clog the vacuum lines or otherwise prevent an effective sealing o'f-the container while the interioris subjected to vacuum. With my invention the rate of withdrawing the air from each container is-controlled' and so controlled that substantially a perfect vacuum is obtained within each container, without causing undue or detrimental movement of the material within the container. That is to say,v my inven tion makes it possible to vacuum pack. dry and even fluffy material. and obtain a high vacuum in each container without removing: any of such material from the'container.

While vacuum isnormally applied to each. air bell once-during each revolutionv of the table and as the air bell arrives at aidesignated' position and the other portion is splined to and movable along the shaft I6. I have diagrammatically shown a lever IQ for moving the splined portion of the clutch to 'operatively secure the pulley IT to and disconnect it from operative engagement with the shaft I6.

"A bevel gear 2| is secured to the shaft I6 and operates a vertical shaft 22 throughthe agency of a bevel gear 23. A ring gear 24 issecureol to the table I3 and a pinion 25, carried by and secured to the shaft 22, meshes with this gear and imparts-rotation to the table I3. The shaft 22 also drives what I designate as a bull gear, 26

through the agencyof a pinion 21. As will later be described; the gear 26 actuates a selector plate 28 (Figures 2 and 3t" and a delivery plate 29.

As shownin Figure 1, the gear'26 is carried by a vertical shaft 30'which actuates the upper part 4 3| of a vacuum-applying valve which forms an end of the shaft- 30 which projects downwardly" beyond aflange-33.

The shaft 30 is located centrally with relationto the column I2 and extends upwardly through anaperture I2aformed in the top of the column.

The aperture [2a is shown as closed by a val-ve part 34 which is removably secured to-thetop of the column I2 by bolts or otherwise. The shaft 30 passes through a central aperture 35 formed in the valve part and this aperture is provided I witha dependingflange and is bushed to provide an upper bearing. for the shaft 30.

The valve parts 3I and 34 andla vacuum con-- trol. plate 36 form. a valve which performs the double function of a control valve and also a dis tributor valve. The parts 3| and 34 form a closure in which the plate 36 islocated. This plateis removably secured to the part 34so that it remains stationary during the rotation of the part 3I. It isprovided with a specially shaped.

. aperture of sl'ot 3'6a which cooperates with each lindrical base portion I I whichconstitutes a support for a central cylindrical column I2, a rotating table I3 and a combined vacuum-applying,

closure-securing mechanism I4 which-move with the table.

As shown in Figure 1,. the base I I encloses and supports an electric motor I5 which may consti tute the motive power for all the movable parts of the machine. Figure 1 discloses a drive shaft I6 which extends across the interior ofthe base and is journaled on the cylindrical wall thereof. It is, in effect, the main drive shaft of the machine and is operatively coupled to the motor through the agency of a pulley II which is rotat ably mounted on the shaft but is positioned thereon by a suitable collar orcollars. The pulley I1 is adapted to be operatively coupled to the shaft by a clutchmechanism I8 which is illustrated in Figure 1. One portion of this clutch is shown as formed integrally withv the pulley I1 of four apertures" 31a formed in the part-3| and with an arc-shaped groove 37 formed in theupper face of the part. 34, in controlling the rate at I which airis withdrawn from a container engaged by each of the devices I4.

The valve part 34 is provided with a threaded aperture" or port 38 which communicates with the arc-shaped groove 31'. Piping 39 is connected to the port 38' and communicates with a source of vacuum (sub-atmospheric pressure) such as a vacuum pump" or an exhausted tank, neither of which are shown; As' shown inrFigures 9" and 10', the vacuum control plate 36 is provided with an annular'dependi'ngifla'ng'e 4| which is l o'cated ad jacen't the periphery thereof and is concentric with its central aperture 366 throughwhich the shaft 30" passes. Thisfiange 4I projects into an annular groove 42' formed in the upper face of the valve part 34 andthe arrangement is such aslto. form a substantially fluid tight seal between acre-739::

As shown in-Figure 9,"theslot 36a is substane? I tially-circular at one l-end'but terminates in. anz'. ar c shaped portion which extends circumferemtiallyof th'eplate but spaced fromlthe' periphery, thereof. I width along its lengthand terminates in a-theo-:

This arc-shaped portion decreaseslin reticallpoin't The widest part of the arc-shaped theupper valve part .3

circumferential length of the groove 31. pla 'tel3t isso mounted on the part 34 that;- the slot 36a registers with the groove 31 and is'in direct communication therewith fromend to end,

The, apertures cm are also so, positioned onthe valve part3 I that the portionof minimum diarneter of.-each suoh aperture registers withthe slot 36a;.throughout the entire length of its travel,

alongthat slot. 4 g Y From" the foregoingit is apparentthatthe plate 36 controls communication between each i aperture 3 lo and the groove-3! as the valve part ofirotation of the valvepart 3| with-relation to V the. plate 36. It is, therefore, apparentthat full andiree communication between. each aperture 31a and the groove 3'! is not established until 25.: 3! is rotated by the shaft 30. The arrows associated with Figures 7 and 9;.disclose the direction consequently, the device [4 carried by it, may be raised or lowered toadjust its position with,

each-such aperture 3la'has traveled in register withthe .slot o thro-ughout anarc of somewhat more than. 90?. ,Full communication between each such aperture 3m and the groove 31" is,1

maintained as the aperture movesin open communication with the circular portion of the slot For the purposesof this disclosure, the pipe may be considered as thesource of vacuum or subatmospheric pressure and it is, therefore, Lapparent; that each aperture am of the valvep'artl3l is placed in. communication with this sourcelonce.

during each revolution of the plate 3 I and, conse-j;

quently', of the table l3. As previously stated, the

valve part BI is splined to the shaft 30, Itis;

however, movable longitudinally of the shaft and is spring-pressed. against the plate 36 by 'inea'ns,

upper-end of the shaft; 7

As shown inFigures 1, I apertures am of the ,part 3ljis countersunk'on the upper-side of thepart-and each countersunk portionfis threaded to receive anipple 44. {Each device ill is provided with a nipple lli, as sh'own inFig'ures 1 and,4,,which is connected by a short,

8, each ofthe with aestud 5.! r-and is adjustable with. relation to the iother, by means of a worm, and rack-assembly irr-whichthe :worm 552 extends v vertically (par:

allel with. 2the. :s upporting way) and is provided at its projecting-upper end with a squared head."

adapted to be l-employ'ed'pfor rotating it and-thus changing the relative; vertical positions of the";

The: stud? 5 l1, carries a ball-bearing sup-ported roller '53, Which; ,i asshown in Figures, land 4, projects into andengages a cam way 54' carried by 'thezstationary column l2. The cam way is so -iormed or contoured that it raises and then lowersleachybracket 48 as the frame 49,, revolves around the'column I2. Inthis way, each housing Aland, consequently, each device I4 is raised. and lowered during each of its revolutions around the columnbl2. It will be understood that the cam Way, E lis so contoured that it and'the' cam roller I53coccasion-a lowering ofv each device l4 toeng-age a container shortly after the container is-properly'positioned onvthe table .l3. The cam rollerr 53 andway 54--.cooperate in raising each device 1,4?O1lt'0'f contact with the container eng'aged'by -it after vacuum has beenapplied tothe. interior of the container and a closure has been so secured to the container as to hermetically seal,

- the interior thereof. 1 y

,Byturningthe worm 52; of the worm and rack assembly, of each bracket 48, the housing and,

relation to the 'table l3. This adjustment is for the purpose of enabling the vacuum pack machine tg be employed: in connectionwith differentisizes of containers; Asis apparent, the

adjustment for this purpose is, in fact, accomplishedby varying the position of the housing engaging portion of the bracket 48 with relation to the co-r respondingicam roller 53.

t, Asshown'in Figure 4, each housing 4'! supports an air bellifi which depends therefrom-but is'so arrangedthat it-is movable with relation thereto. a

I ln the embodiment illustrated, each air bell .is

vof-a .coil spring 13. The coil spring surroundsth e t housinglengthlof'hose or flexible conduit to one ofthe nipples .44..

' Each combined vacuum-applying; closure-seal ing device 14 is so constructed that it, ineffect, 6.

consists of three essential portions, viz.,a a house" ing, Mfavacuum-applying portion and a closure 1 sealin'g portion The housing cooperates with and supportsboth'of the last mentioned portions; which are later described-in more'det'ail; Each housing 4! is adapted to moveflupand down,"duringits rotation with the table l3, and is carried by' a bracket 48. ,Each bracket iscarried byan upright which forms a part of a rotatingframe- 49 secured to the table [3 and surrounding' the column [2; In the "apparatus illustrated, the Item aystll, each of which is adapted fto receive an guide peel the brackets 48.1" Each bracket 1:

twdparts, "one of whichis providedv ng is f en n wa anal the neck portion projects into the hollow interior of the housing and is provided at its upper end with a'collarwhich is engaged by aring 56 re moyably secured to the housing so that it constitutes aishoulder on the housing for limiting the downward movement of the air bell relatively to A coil spring 57, seated on an annular shoulder formed within the housing,

' engages the'upper end of theneck a and yield ingly holds 'thecollar formed thereon in engage-j merit with thering. 56,'i. e., yieldinglyholds the airbellfidinits lowermost position with relation tdth housing .41, Thehousing 41 is hollow from end nd.

previously stated, the housing also supports,

theclos ure-isealing mechanism forming a part e 49 is provided with four vertically exten of 'ea hdevice- IA.

and an actuating'spindle therefor, formed in two partsid'and 5 9; The lower part 58 of the spindle l supports thecapzfil which, as shown, is located 'within'the confines of the air be1l'55. The upper I part 59 of the spindle projects above the housing a and; support qa spherical roller, 62 which .is" ada'ptedjto engage a cam orfcamway'63 carried by a bracket 64 which is s cured to the stationary central. ,column l2. The roller 82 is shown asv spherical,i. e.,'as a ballroller and, is supported by aballtbearing. The cam 63, engaged by the roller ili 2',fis relatively short but-extends in the providedv/fith a neck portion 55a of less diameter" than the bell portion thereof. The upper end vof;

U i As shown, this 'inech'anism consists essentially of a closure-engagingcap 6|.

garages? direction "of 1' movement "or the roller 62' as the roller moves-with its corresponding mechanism It, and with the tab1el3. The. cam 63is so positioned and so contoured that it moves thecap GI downwardly to engage a closure accomplished through the agency of' the two-part spindle 58-59 and .is loosely fitted onthe' container engaged by the air bell. This is a preliminary tomoving the closure to; a position in: which. it

hermetically seals the. interior of the container.

This initial movement of the cap 6| may. and in the apparatu illustrated, does take place after the air has been withdrawn from the interior of the container and,; consequently, after the: air bell has been moved downwardly, by the cooperate tive action of. the: cam roller 53 and-cam way 54. to engage a container carried by the table [3. a

In the drawings I have designated each such container by the numeral 55 and eachiis provided with a type of closure 55a: which is adapted to' be screwed onto the neck finish of the container in theoperation of sealing the container. Such closures engage screw threads formed on. the outer peripheral face of the neck finish-and a ring shaped gasket, either separately formed or formed as a part of the closure, sealsthe join-tv v of the bracket 64 and provided with elongated gear teeth, such that the rack will be engaged by the gear 66 throughout the entire movement of the spindle 58-59 occasioned by the engagement of the ball roller 62 with the cam 63.

.One of the features of my invention is that the rack 61 is so mounted that it is" capable of selfadjustment forthe purpose of causing itsteeth'to effectively intermesh with the teeth of the gear 65', independently of the rotative position of the gear at the instant it contacts the rack during its movement around the column I2. {is shown in Figure 4. the contacting ends of the bracket 54 and the rack part 61 are overlapped and provided with interfitting or positioning shoulders. A stud bolt 68 is secured to the bracket 64 and extends through an aperture formed in the overlapping portion of. the rack partfil. and also through a cylindrical buffer 69 and a is; nioveddownwardly by this engagement, is heldi'n a depressed position by the intermediate portion of the cam and then moves out of engagement with. the cam after passing along the other wedge-shapedportion thereof. The spring. 10 prevents the spindle 58-59 and the cap 5| from exerting excessive pressure onthe closure 65a of the. container 65in case of an improper adjustment of the cam or cam way.

In order to adjust the position. of the cam way; the bracket 64 is formed in two parts, one of'which is provided with a way in which a dove tailed portion of the other part fits andthe two' parts are secured together by a nut and bolt assembly H. By this arrangement the vertical position of the cam way carrying part of the bracket 64 may be adjusted to accommodate containers of different height. The elongated gear engaging teeth of the rack 51 accommodate suchan adjustment of the bracket and as previously noted retain the gear 56 in mesh with the rack' as the gear moves downwardly in response to the cooperative action of the cam 63 and the ball roller 62. I

The spindle 68-59 is yielding'ly held in its uppermost position by acoil spring 12, which surrounds the spindle part 59 and seats on a countersunk shoulder formed at the upper end of the housing 41. In order to accommodate the periodic rotation of the spindle, the upper end of the spring seats oh a washer or ball race 13 which surrounds the spindle and forms a bearing for a collar 14, shown as formed on the spindle part 59. The cap 5| secured to the lower end of the spindle 58-59, in effect, limits the extent of upward movement of the spindle 58-59. The threaded flange of this cap, which is secured to the lower end of the spindle, engages the inner face of the bell and in this way limits the V the collar I4. The friction clutch 15 is shown metallic washer located at the outer end of the buffer. The head of the bolt 69 seats on this washer for the purpose of normally holdingthe rack part 5'! in the position illustrated: in Figure 4, with relation to the bracket 64.. It will beunderstood that the buffer 69 is formed of resilient material and that the bolt receiving aperture in the rack 61, is of such size as to permit the rack to move relatively to the bracket lid-thus compressing or otherwise distorting the buffer 89; in case the teeth of the rack 51 do not immediately mesh with those of the gear as the gear contacts the rack. V

The cam 63 is illustrated in Figure 4' as so mounted on the. bracket 64 that itii'syieldingly I firs ee s sa sd fi e Wil e 91 fi 9%;

as'provided with-a sleeve 16 which surrounds the spindle part 59, is splined thereto and is pressed into frictional'engagement with the friction rings forming apart of the clutch. The friction rings are shown as losely surrounding the spindle part 59 and as supported by the gear 85. The clutch actuating pressure'is imparted to the sleeve 16 by an adjustable ring nut 11, threaded onto the spindle part 59, through the" agency of a ringshaped cushion 18 shown in the. form of a1truncatedcone located between the ring nut Hand the. sleeve 16. The cushion 18 is formed of resilient material such as rubber. With such an arrangement the clutch 15 can be so adjusted that '9 the inner end of the nipple 46 carried by the housing '41 of the device. The stem 8I of the valve disk 19 extends'downwardly through'the cap BI is perforated as shown forthe purpose of accommodating thefree passage of air from I the air bell-55 to the source of vacuum, through the interior of the spindle part 58, the nipple 46, the hose or flexible connection 45; and the 1 control valve made up of the valve parts 3|, 34

and 36 (Figure 1).

The lower end of the valve stem BI .is fitted with a closureengaging foot 82, which is rotatively mounted on the stem 8I,

preferably by means or a ball 'or antiirictionfbearing. The valve disk 19 1s normally held to its seat, within thecage portion of the part 58, 'by means of a coil spring 83, the upper end of which is seated on an internal shoulder formed within the spindle part 59. The arrangement" is such that the valve is opened'-against thepres- 'sure of the spring 83when the spindle moves downwardly and the'foot 82 engages a-closure on a container, thus checking the downward movement of the valve stem SI, and opening the valve. 'With such an arrangement the interior of the bell 55 and, consequently, the interiorof the container 65 engaged by the bell, will not be exhausted, unless a container is engaged by the corresponding air bell 55 and unless that 'con-' That is to' tainer is provided with a closure. say, the valve-disk 19 remains on its seat, unless lifted by the engagement of the foot 82, with a closure fittedon a Jan The bell 55 is shown provided "with a ring--' shaped gasket or lip 84 which is held in place on the lip of the'bell by means of a specially formed ring nut 85. By such an arrangement the gaskets 84 can be readily changed to cooperate with containers of different size andshape. 'As shown, the gasket is of such diameter that it is adapted to engage the shoulder of a a jar or container 65 as the bell moves downwardly [to enclose the mouth thereof and the closure65a.

loosely fitted thereto. In this way, a hermetic I seal is accomplished between'the container'and the interior of the bell, as a preliminaryto exhausting the air from both the bell and the container.

'l Containers are placed on the rotating table I3" by the selector mechanism which includes a con- 'veyor 86, the selector "plate 28 and a cam actuated gate 81'. a As shown in Figure 2, the conveyor is located adjacent the table I3 and is onfa level with the table and an intermediate stationary plate or table 88., lThe conveyor moves from right to left, as illustrated in Figure 2, and the gate 8'! is actuated so asgto periodically release a single container, located onthe conveyor, so as to permit the conveyor to move that container into engagement with the edge of afdirecting plate 89 and to a position'such that it'will be engaged by thev rotating selector plate 28' and thus propelled along the plate 89 and across the plate'88 onto the table I3.

The plate 28 is provided withtwocohtai'ner "receiving recesses '90, each of which is adapted to' engage a container" on the conveyor'which haslbeen released by the gate 81. The rotation [of the plate'28 then moves the engaged container on the conveyor, across the stationary plate or table 88, onto the moving table I3 and into engagement with a positioning bracket 9| I carried by the rotatable frame49 l' In the machine illustrated, four bracketsfll areemployed and the arrangement vissuoh that the cooperation between therotating selector hollow interior of the-part 58 and projects into the cap BI carried by the spindle part. The

bracket may be readily adjustable and also that H different brackets may be readily installed so as to accommodate containers of different sizes and I shapes. It will'be understood that each plate 28'make's two complete revolutions as the table makes one completerevolution. I

The gate 8'I'illustrated is in the form of a bell crank lever and isactuated by first oneand then thefother of two cams 92 located 180 apart on the plate 28. 'The longer "arm of the gate-lever 81 carries a cam roller 81a and the shorter arm carriesfia fiber-roller .8'Ib which is adapted to move into and out of the-path of travel of containers located on the conveyor.. Gate 81 is norlonger arm of the gate.

man held-against a stationary stop 53 by means of-a coil spring 94; one end of which is secured.

to the stationary frame of the machine and the other end of which is suitably coupled to the The stop 93 is so positioned that the spring 94 normally holds the cam roller 81a in the path of travel of the cams 92 and the fiber roller 81b in the path of travel of containers on the conveyor.

of .the gate, the fiber roller 81b constitutes 'a' stop which, together with rails 95, along each In this position side of the conveyor, holds containers located on the conveyor stationary thereby causing them to slide on the conveyor as the conveyor contin'ues its forward movement. The rails are adjustable laterally of the conveyor to accommo date different size containers E5 and also to minimize' the friction between the containers on the conveyor and the rails.

As each cam 92 engages the roller 81a, the gate is swung away from the stop 93 and as a result, the fiber roller BIhmovesalong the peripheral surface of the container 55- engagedby it. When the cam lobe 92a engagesthe cam roller 810., the

gate is swung to such a position that the fiber roller 81b is momentarily moved out of the path of travel of containers'on the conveyor, with the. result that all the containers move forward with p the conveyor. The arrangement is, however,

such that the gate releases but one containerat v a time and the timing of this, release is such that the released container moves forward with the conveyor and is received by one of the recesses of the plate 28 and moved thereby onto the table I3.-

Centrifugal force occasionedby the rotation, of the table. I3 tends to move the containers 55.

out of engagement with thebrackets 9i after they are released by the selector plate 28. This tendency, of course, increases as thetable is speeded up. .For. this reason I have provided a series of spring-pressed rollers I00 which cooperates with each bracket 9| in holding each successive container in place on the table, until the container is engaged by the lip 84 of a downwardly moving airbell 55.

As shown in Figure 14,'each rolleris carried by a spring-positioned leverlIII. The leversi'IflI are pivotally mounted between two plates I62, whichconstitute an auxiliarybracket Each lever is provided with a fi-sep'ara-te actuating spring I03 which normally holds it against a stop I04. For convenience'of illustration, the upper plate I02. .is omitted from trated in Figure 2.

As shown in Figure 2, the rollers 1.0.0 and their carrying bracket are mounted immediately adjacent the rotating table 1.3 and in such a position that the plates 102 are overlapped by the selector plate .28. As each container is moved onto the rotating table by the action of the selector plate .28, it is first engaged by one of the brackets 9 I ,moving with the table. Such bracket and the selector plate cooperate in positioning the container on the, table and in moving it to a position such that it is engaged by the first roller I of the series carried by the auxiliary bracket. As the container moves with the bracket 9|, it is engaged by the successive rollers I00 and is thus yieldingly held against the bracket 9| by one or another of these rollers until it is gripped by an air bell 55.

The foregoing description, taken in connection with the drawings, discloses that the vacuum pack machine here illustrated positions four containers or jars on the rotating table l3 during each revolution of the table, as a preliminary step in vacuumizing and sealing such jars. This makes it apparent that the four jars so positioned are also removed from the table after they have moved with the table around the stationary column l2. during each revolution of the table [3 the cooperative action of each cam roller 53 with the .cam way 54 moves its corresponding or carrying bracket 48 up and down and, therefore, coca sions a movement of each device l4 toiit's lowermost position, in which the corresponding air bell 55 engages a container ositioned below it on the table I 3. This downward movement of each device [4 causes the corresponding foot .82

Thus, it is .apparentthat In order to prevent the upward movement of each. air bellfrom, lifting the container 65 engaged bvit, it is desirable to shut off communication between the interior of the air bell and .the source of vacuum prior to raising the air bell. This is accomplished by the vacuum-control valve "assembly 3|-34-36 which is so synchronized with the movement of the table I3 bell in communication with the valve assembly 3I-34136 thereby exhausting the air from the air bell and the interior of the engaged container. After the air has been exhausted from the container 65, the ball roller 62 of the corresponding device 14 moves into engagement with the cam 63 thus actuating the spindle 58- 59to yieldingly force the depending rim of the cap 6| into gripping engagement with the closure 65a of closure employed but the cooperative action will always be such as to hermetically seal each container 65 at a time when both its interior and the air bell are subjected to a substantially complete vacuum.

roller 62 moves off of the cam way 63 permitting the spring 12 to lift the spindle and the cap 6!. The cam roller 53 and .cam way 54 also cooperate to move the bracket 48 upwardly to a position such that the air bell not only frees the con-- tainer previously engaged by it but moves to .a position such that it clears the upper end of the closure of the container, as. the container is moved 01f of the rotating table l3.

- -65 After the sealing is accomplished, the ball that it controls the application of vacuum to each air bell and the duration of such application. It-

times communication between each bell and the source of vacuum so that vacuum can only be applied to thebell, after the bell has moved downwardly into engagement with a container on the table [3. Likewise, the closing off of such communication is timed to take place after the spindle 58-59 has been actuated by the cam 63. Prior to the lifting of each air bell 55, it is vented to the atmosphere by the cooperative action of air vents,35c and 360 formed respectively in the valve part 34 and the control plate 36 of the control valve assembly 3l--34-36 (Figures 5 and That is to say, as each aperture 31a of the valve part 3| moves across the control plate 36, it moves out of register with the aperture 3 6a and then into register with the air vent 360 of the plate and vents the corresponding bell to the atmosphere. Thevports 35c and 360 are always in register and the port 350 is always open to the atmosphere.

The primary function of the valve disk 19 is to prevent the application of vacuum to an air bell, unless the air bell is in operative engagement with a container and the container so engaged is fitted with a closure. The assembly, of which the disk 19 forms a part, also functions to aid inthe release .of the associated container from the air bell after the bell has been vented to the atmosphere and is moving upwardly. As to this, it will be apparent that the spring 83 yieldingly forces the disk 19 toward its seat and, consequently, yieldingly forces the foot 82 intoengagement with the cover 6521 carried by the associated container 65. For this reason the force of the spring 83 tends to push the container away-from the air bell as the air bell lifts and, therefore, tends to prevent the associated air bell from lifting the container off of the table l3.

Too much pressure on .a closure a during the operation of'withdrawing air from the air bell may prevent the complete withdrawal of air from the associated container. Excess pressure might also damage the closure. For this reason, it is desirable to employ relatively light spring pressure in holding the foot 82 against the closure. The springs 83, therefore, cannot be relied upon to eject containers from the air bells under all conditions of operation. I have, therefore, provided means for automatically stopping the machine, in case a container is lifted ofi the table by an' air bell, or by the closure-sealing apparatus,

' A portion of the automatic stop mechanism is shown in Figures 2 and 4 and, asthere illustrated, consists of a ,microswitch I06, which is actuated by a springwire tri I01. The switch is included in or associated with the circuit which delivers current to the motor 15 and is so arranged that when the wire or rod 161 is deflected it acts to open the current delivery circuit. Microswitches are well known commercial devices and for that reason need no further description, except to say that the microswitch I06 is carried by a rod 108 which is adjustably mounted inv a bracket IDS carried by tainer and stop the machine, if-the container is raised above the table 13 byan airfbellbr closure-sealing mechanism at the the microswitch I06" time "it "passes The movement of the vacuum sealed containers off of the table [3 is accomplished'by the delivery plate'29 (Figuresl and 2). The action of this plate is somewhatjsimilar to ,that'of the plate 28 and the two plates are duplicates except that the plate 29 is not provided with the cams disclosed and described in connection with v the plate 28. The plate-2 9 is substantially the same size and shape as the plate 28,1 is' provided with two container-engaging recesses 943a; ro-v 'tate's in thesame direction as that of the plate.

v pressure before the spindle 58 -59 andthe" cap 28 and rotates twice during each revolutionfof the table l3 During each suchrotation, one of the recesses 90a engages a containercarried "by and moving with the table'lsand moves it along a directingedge of the plate'89 across the plate 88 and again'onto the conveyortfi. As shown, the conveyor may be drivenbya pulley v 96, secured to the shaft l6.

As disclosed in Figure 1, the plate 29 is car-" ried byv averticalshaft 91 which extends through I a'suitable bearing, formed in a part of the frame of the machine, and is provided at its lower end with an operating gear 98. The gear 98 meshes with the bull gear 26. The mounting of the shaft 97 and its operating gear-{58 is si.m-. 'ilar to that of the shaft 30 and the bull gear-1E; The shaftSl is provided with a collar 97:; which constitutes astep bearing for the shaft and the operating gear 98 is secured to the-lower pro:

'jecting end of the shaft, and with the collar 91!;

"For convenience of illustration and brevity ofing position on the container. Atterthis is ac l complished, communication between the respec.

tive air bell and the sourceofvacuum is cut ofi,"'the bell.is vented to the atmosphere and then lifted. The lifting of each device [4 eventually raises the foot82, of the valve stem 8|,

off'the sealed closure thus permitting the spring 83'to move the valve disk '19 to its seat and'close ofi communication between the corresponding air bell 55'and the, valve assembly 3l--34 36.

While it is essential to control the rate at which full vacuum is applied to'eachcontainer 65, the specific detailsof the apparatus for accomplishing this may be modified materially. For example, an arc-shaped seriesof drilled holes of gradually increasi'ngsize may be substituted for the arc-shaped portion of the slot"36a with- I out detracting from the effectiveness of the apparatus. v This substitution also simplifies and cheapens the operation of producing the-plate 36.

The closure engaging caps iii are removable so that different caps maybe applied'to the machine to suit the type of closures involved. The

type of material involved by the vacuum packing opertion may also require or permit some change as to the rate of applyingvacuun'i to the interior of the containers involved. Forthis reason the plate 351s removable and replaceable, in order that the rate at whichvacuumis'applied to'the containers maybevaried.

In Figures 11 and 12, I have shown a modified form of the cam andrack supporting bracket.

As illustrated, the cylindrical portion l2 of the stationary frame is provided with a cover plate Itg'ma'y be said, however that the; mounting by the pins H3.

i212. This cover plate carries a bracket support 9 III! provided with a vertical guide for the reception of the'bracket HI. This bracket H I performs the function of the bracket 64 of Figure 4 and supports the earns 63 and alsoa-rack H2, which is the equivalent of, or a substitute for, the rack part 67 of Figure 4. As shown, the cam 63 is arcshaped for the purpose of accommodat-v ing the movement of the ball roller 62 as it travels with the table It is supported by pins H3, each of which extends throughan' elongated slot formed in, and extending transversely of the cam.

Each pin H 3 is carried by a pairof depending lugs H4- formedon the bracket llI' so that the cam 63 is, in effect, suspended between the lugs The bracket isfalso provided 1 with two spring sockets H5, each of which'reshaft of the plate 28 extends 'vertically, that the operating mechanism corresponds to that 'of the substantially v the same level abovethe table, I3. While the valve mechanismof which the disk [9, (Figure 4) formsa part-opens and closes on communication between each airbell and are so positioned with relation tothe' moving "valvepart 3| and its apertures-3la,"that the application of vacuum toeach air bellisso synchronized with the n 1ovemem-, ofth airben that vacuum isfnot applied until after the bell has engaged a-container on the table l3; "As preplate 29 and that the two plates are located at the cam in its lowermost positionfwithrelation the mated slots m therein. The

viously described, the withdrawalofair from: each container, in establishing a vacuum therein, is then a relatively gradual procedurebut the ar rangement is, such that the interior 0f each containergis subjectedto substantially' vacuum bracket HI is provided with a separate thumb screw Ill for adjusting the pressure of "each.

spring H6.

The bracket is also. provided with a depending portion which projects below the cam 63 p and forms av support for the rack I- I2. As shown, the, rack ismounted in a holder I 12a which is secured to the bracket bystud bolts N27). The holder H211 is channel-shaped and so arranged that the channel opens laterally and receives the rack H2.

The innermost wall of the channel is a'pertured toreceive stud stripper bolts 1 l8, each ofwhich is surrounded by a coil spring I I9 and is screwed is yielding'ly held inits operative" position and with the gear 6.6 (Figure 4) as that gearmoves into engagement with it. i

In the illustrated embodiment of the rack, as

disclosed in Figure 4,, and also in Figures ll, 12

and 13, each gear 66 is engaged by the rack once during each revolution of its associatedmechani-sm 14 around the central column l2. "It will be understood that the rotation imparted to the closureengaging cap 61 by the rack and gear assembly, is essential only where the closure employed is one such as requires-a turning motion to move it to sealing position. Where another type of closure is employed, a downward movement of the cap 6|, or equivalent device, maybe all that is necessary to accomplish a seal. Under such circumstances the rack and gear assembly may be dispensed with. It will be apparent that a circular rack could be employed instead of the segmental rack illustrated and, if employed, the

. cap 51 would rotate continuously. This, however, is not necessary and a circular rack would mate- 'rially add to the cost of the machine.

It will be understood that changes and substitutions, other than those herein described and suggested, may be made in the machine illustrated and that various modifications, additions and omissions may be made in that machine without departing from the spirit and scope of the invention as defined by the appended claims.

What I claim is:

1. In a machine for sealing containers under vacuum, a movable support for containers to be .sealed; means for moving said support; an air bell movable with said support; means for moving said bell to engage and disengage a container on said support; and an automatic stop mechanism positioned to engage a'container engaged by and moving with said air bell during a disengaging movement of said bell, and to stop the movement of said support and said bell.

, 2. In a machine for sealing containers under vacuum, arotatable support for containers to be sealed; means for rotating said support, air bells spaced around and movable with said support; means for moving each such air bell toward and away from said support, to engage and disengage a' container on said support during the movement ,of the same; and an automatic stop mechanism provided with means to engage a container lifted by and moving with one of said air bells during the disengaging movement of the same and to thereby stop the rotation of said support and the movement of said air bells.

3. In a machine for sealing'containers under vacuum, a rotatablesupport for containers to be sealed; means for rotating said support; air bells spaced around and movable withsaid support;

.means for moving each such air bell into and out .of engagement with a container on said support during the movement of such container with said support; and a stop mechanism engaged and actuated by a container engaged by and moving relatively to said support with any one of said bells during the disengaging movement such "vacuum, a movable support for containers-to be sealed; means for moving said support;- a source of vacuum pressure; a combined vacuumappl-ying and closure-sealing mechanism carried by saidsupport and movable toward and away from the container supporting surface. thereof and comprising a substantially cylindrical open ended housing, a container-engaging air bell carried by said housing and axially aligned therewith, a

closure engaging cap located centrally withinrsaid bell, an actuating spindle for said cap extending upwardly through said housing and axially aligned therewith, a vacuum control valve located within said spindle with the stem thereof extending downwardly through said spindle and through said cap and axially aligned withsaid spindle and said cap, a closure engaging foot carried by said stem and a spring located within said spindle for holding said valve closed and said foot-in an extended closure-engaging position; means for reciprocating said housing during the movement of said support to move said air bellinto and out of engagement with a-container carried by the support, and said foot into and out of engagement with closures carried by such containers; means for moving said spindle longitudinally of said housing during the'movement of said support to move said cap into and out of engagement with a closure engaged by said foot and carried by a container engaged by said bell; and means connecting the interior of said spindle with said source of vacuum.

. 6. In a machine for .sealing containers under vacuum, a source of vacuum; a rotatable support for containers to be sealed; means for continuously rotating said support; means. operative during rotation of said support for moving onto said support a succession of containers each having a closure loosely fitted thereon; a combined vacuum applying and closure sealing mechanism moving with said support and movable relatively thereto toward and away from the container supporting surface thereof and comprising an open ended housing having a port intermediate its ends in communication with said source of vacuum, a container-engaging air bell mounted on the lower end of said housing, a closure-engaging cap located centrally within said bell, an actuating spindle for said cap extending through said housing and having a-delivery passage formed therein communicating with said bell and the interior of said housing, a valve carried by said spindle for controlling communication between said sourcev of vacuum and said bell through said spindle passage, 2.

closure-engaging stem for said valve extending .co-axially with said spindle through said passage and projecting through said capto a closure-engaging position within said bell; means for moving said mechanism toward and away from the container supporting surface of said support to cause .saidbell to engage and disengage containers on said support and said stem to engage and disengage closures carried by such containers and to thereby open and close said valveymeans for rotating said spindle and said cap while said stem is in a'closure-engaging position; means for reciprocating said spindle longitudinally of itself duringsuch rotation to move said cap into and out of engagement with closures on containers engaged by said bell; yielding means for closing said valve and imposing an ejecting force on a container engaged by said bell assaid bell moves to disengage such container.

7. In a machine for sealing containers-under pap; n

vacuum, a rotatable supportfor containers to be sealed; means for rotating said support; asource of vacuum pressure; a combined vacuum, ape plyingand closure s'ealing'mechanism carried by l said support fimov'able therewith and: movable toward and away from the container supporting surface thereofduringthe rotation of said sup- 7 port and comprising a housing. having. a port formed therein communicating with said source of vacuun1 ,a container-engaging'air bell carried by said housing, means for yieldingly holding said bell in a container-engaging. position with relation to'lsaidhousing, a closure-engaging cap located centrally within said. bell, an actuating 'spindlexforsaid cap axiallyaligned therewith and extending upwardlvthrough, said housing and having an air delivery passage formed there'- in' communicating at.;.one end withthe interior of said'bell and at the-other. end with-the interior of. said housing, a valve'carried by'said spindle for opening and closing communication between said passage and 'said port, a closure-engaging stem for said" valve extending co-axially with said spindlethrough said passage .and. projecting through said cap to a closure-engaging position within said bell,and a spring carried by, said thereof andicomprising; a housing. in open com munication with-said source'of vacuumpressure; a -container-engaging air fbell depending from andfyieldingly supportedon said housing; a 010* sure-engaging cap located within said bell and movable'relativelyi thereto; a hollow; actuating g spindle for said cap secured thereto and extending into said housing with the. hollow [interior thereof incommunication with 'saidsource of vacuum pressure and with saidair bell;.means carried by said housing for yieldingly supporting saidspindle in a raised positionwith relation to said housing; a valve carried by said-spindle for controlling communication between saidibell and said source of vacuum pressure; a stem secured toand depending from said valve and extending through said spindle and said cap into afclos'ureengaging position within said bell; a-spring operating between said spindle and said'valve for holding thevalve closed and the end of said stem. in a-closure-engaging position within said bell and below said cap; means for reciprocating said housing tomove said bell to and. froma conspindle for 'yieldingly holding said valve; in the T passage closing position and the'stem thereof in an extended ,closure engaging position; means for moving said combined mechanism-toward and away from the: container supporting surface of said support to cause said bell to engage and dis-.- engage containers on said support-and said stem to engageanddisengage closurescarried by such containers and to thereby open'and 'elose said valve ;-1 means'for reciprocating said ,spindle to' move saidcap into and out of engagement with '-prising, an open-ended housing;

a closureon a. container engaged-by said bell; n

and meansfor rotating said spindle andsaid cap while said stem and said capare in closureengaging. position.-

.8. In a vacuum pack and containeresealing machinaa supportfor containers tobe ,vacuum' sealedg-meansfor moving said support;- a-sou rce of vacuum pressure; a combined -vacuum-apply ing and closure-sealing mechanism movable with said support; and relatively thereto toward the container suppo rtingsurface thereof and. comprising, an open-ended housing; a container-en: gaging air bell depending from and yieldingly supported on said housing; a closure-engaging cap located fwithin'said bellzand movable-gelatively thereto; a hollow actuatingv spindle for saidscan extending into said-housing and with the hollow interior thereof in communication with said source of vacuum and" withfsaidpair bell; a .valve carried bysaid spindlefo r controlling communica tion I between vgsaid; source of vacuum pressure and said bell; a stem secured to saidfval e,- depending-'.the'refrom;=and "extendingfthrough"saidfspindle and said cap into said airfbell; a spring 'locatedfwithinf said spindle Jforholdifi'g.saidfvalve closed and the end of said stem in a1.closure engagingposition below. said eans forjreciprocating said. housing during mov ment of saidsupport to move said bell into and-"due of engagement 'with a container carriedby-saidsupport' 9 In a vacuum pack and container-sealing machine; asupport ,for containers to be vacuum sealed; means ;f 0 r:moving said support; a source .oi vacuum1pressure; afcombined vacuum-apply- .ing and closure sealing-mechams m movable'with said support andrelatively thereto toward and away "from the container-supporting surface tamer-engaging,positionrelatively to said support; and'means' for moving said spindle relatively' to'said housing to actuate: said capand move said "valve stem into valve-opening. engage:-' ment .with the closure on a container engagedby saidbell.

' .1Q. 'In a. vacuunrlpack and icontaine resealing machine, a supportfor containers-.to be vacuum sealed; means for moving said support; a'source of vacuum pressure; 'a combined vacuum-applying and closure-sealing mechanism movable with said support and relativelythereto toward the container-supporting surface thereof and coma containerengaging air bell depending from and yieldingly supported on said housing; a'closure-engaging cap-located within-said bell and. movable relatively thereto; a hollow, actuating :spindle for said cap extending into said housing and with the hollow interior. thereof in'communication with said-source ofvacuum'and with said" air bell; avalve carried by said spindle for controlling communicationibetween said source of vacuum pressure and said bell; .astem secured to 'said -valve, depending therefrom and extending through said spindle. and. said cap into said air bell; a spring located within said spindle for holding said valve closed and the end of said stem in a closure-engaging position below said ':cap; means for reciprocatingsaid housing-during movement of said-support tomove said-bell mounted on said .:frame;- a housing movably mountedon. said frame; a eontainer e'ngaging air bell carried by said housing; a closure-engaging cap located within'said bell and movable with relation thereto; a hollow actuating spindle for saiducap, secured thereto, extending upwardly into said housing and with the hollow" interior thereof in communication with said bellfand' said sourceof vacuum pressure; a valve carriedby said spindle for controlling communication between said source of vacuum-'- pressure and said bell; a valvestem secured to said valve and extending through said spindle and said cap into a closure-engaging position withinsaid bell; means pressure table; and means carried by'said frame for periodically depressing said spindle to move-said cap and said valve stem into closure-engaging position relatively to said bell.

12. In a vacuum pack and container-sealing machine, a stationary frame; a source of vacuum 1 pressure; a container-supporting table movably mounted on said frame; a housing movably mounted on said frame; a container-engaging air bell carried by said housing; a closure-engaging cap located within said bell and movable with relation thereto; a hollow actuating spindle for said cap, secured thereto,.extending upwardly into said housing and with the hollow interior thereof in communication with said bell and said source of'vacuum pressure; a valve carried by said spindle for controlling communication between said source of vacuum pressure and said bell; a valve stem secured to said valveand extending through said spindle and said cap into a closure-engaging position within said bell; means for reciprocating said housing with relation to said table. to-move said bell to and from a container-engaging position with relation to said table; means carried by said framev for periodically depressing said spindle to move said cap and said valve stem into closure-engaging position relatively to said bell; and means for rotating said cap while said spindle is depressed.

13. In a machine for sealing containers under vacuum, a movable support for containers to be sealed; means for moving said support; an air bell movable with said support; means for moving said bell to engage a container on said sup port during movement of said support; separate means, acting successively during the movement of said support, for reducing the air pressure within said bell and said container, for sealing said container while the air pressure within said bell is so reduced, for venting the interior of the bell to the atmosphere, and for moving said bell to disengage the container on the support engaged thereby; means acting during the disengaging movement of said bell to apply a disengaging force to said container; and a stop mechanism positioned to be engaged by a container engaged by said bell during a disengaging movementof said bell, for stopping the movement of said support when so engaged.

14. In a machine for sealing containers under vacuum, a movable support for containers tobe sealed; means for moving said support; an air bell movable with said support; means for moving said bell into and out of engagement with a container on said support; a source of vacuum bell engages a container on said support, for placing the interior of said bell in communication with said source of vacuum, for sealing the container engaged-by said bell while the bell communicates with said source, for venting the interior of said bell to the atmosphereand for applying a disengaging force to such container simultaneously withthemovement of said bell to disengage the'same; and means, positioned tobe actuated by a container in engagement with said bell after disengaging movement of said bell, for stopping the movement of said support when so actuated.

15. In a vacuum pack and container sealing machine, a moving support for containers to be 20,. sealed; a source of vacuum pressure; a combined vacuum-applying and closure-sealing mechanism comprising, a housing movable with said support and movable relatively thereto toward and away from a closure-carrying container located on said support, a containereengaging air bell depending from and yieldingly supported on said housing, a cap located within the confines of said bell for engaging and applying a sealing force to a closure carried by a container engaged by said bell, a

tubular carrier for said cap yieldingly supported on said housing and in open communication with the interior of said bell, a valveseated On said tubular carrier and movable relatively thereto to. control communication between said source of vacuum pressure and the interior of said bell, and a closure-engaging stem secured to, said valve pr'ojecting-intoa closure-engaging position within said bell; means for actuating said housing to move 'said bell into engagement with a container located on said support and to move said valve stem into valve-opening engagement with aclosure carried by such container; and means for actuating said carrier to move said cap into a closure-applying position with relation to such container and the closure carried thereby, while said valve is off its'seat and said bell engages such container,

16. In a machine for applying vacuum pressure to a container and for sealing the same while vacuumis applied thereto, a support for containers to be vacuum sealed; means for movingv said support; a source of vacuum pressure; a combined vacuum-applying and closure-sealing mechanism including a housing movable with said support and movable relativclythereto toward and away from a closure-carrying container located on said support, an air bell for engaging such 'a container, depending from said housing, a cap-for engaging and sealing a closure carried by a container located on said support and engaged by said bell, and a tubular carrier for said cap in open communication with the interior of said-bell and movably supported by said hous ing; a periodically opening valve actuated in synchroriism with the movement of said support for controlling communication between said source of vacuum and said tubular cap-carrier; a second valve seating on said carrier; a stem for said valve extending through said carrier and into a closure-engaging position within said bell; means opera-ting through the medium of said housing for moving said bell intoengagement with a container located onsaid support and said valve stem into engagement with a closure carried by such container engaged by said bell and ,separate means for movin said carrier and said separate vmeans, acting successively during movement of said support and while said cap to apply a sealing force to such closure.

17. :In a machine for applying vacuum to a container and for sealing the same while a vacuum is applied thereto, comprising a support for containers to be sealed; a source of vacuum pressure; an air bell movable to and from a vacuum-applying position with relation to a container on said support; a closure-sealing cap located within the confines of said air bell for applying a sealing force to a closure carried by a container located on said support and engaged by said bell; a normally closed valve for controlling-communication between said source and the interior of said bell; a valve-opening stem secured to said valve and extending into a closure-engaging position within said bell; means for moving said bell into a vacuum-applying position with relation to a container. on said support and for moving said stem into valve-opening engagem'ent'with a 010- sure carried by a container engaged by said bell; and means for moving said cap to engage and seal such closure while'said valve is'o'pen and said bell is in vacuum-applying engagement with such container.

18, In a machine for applying vacuum to a container and for sealing the same while vacuum isapplied thereto, comprising a support for containersto be sealed; a source of vacuum pressure; an air bell movable to and froni'a vacuumapplying position with'relation to a container on said support; a control valve for controlling the rate of applying vacuum to the interior of said bell; a closure-sealing cap located within the confines of said bell for applying sealing force to a closure carried by a container located-on said support and engagedvby said bell; a normally closed valve located between said control valve and the interior of said bell; a valve-opening stem secured to said last mentioned valve and extending into a closure-engaging position within said bell; 'means for moving said support and for actuating said control valve; means for moving said bell into a. vacuum-applying position with relation to a container on said support and for moving said stem into valve-openin engagement with a closure carried by a container engaged by said bell; and means formoving said cap to engage andseal such closure while said bell is in vacuum-applying engagement with such container and is in open communication with said source through both said valves.

19. In a machine for applying vacuum to a container and for sealing the same while vacuum is applied thereto, comprising a support for containers to be sealed; asource of vacuum pressur an r bell movable'to and from a vacuumapplying position with relation to a container on said support; a control valve for controlling the rate of applying vacuum to the interior of said bell; a closure-applying cap located ,withinthe confines of said bell for engaging and applying a sealing force to a closure carried by a container located on said support and engaged by said bell; an intermediate valve located between said control valve and the interior of said bell; means for moving said bell into a vacuum-applying position with relation to a container on said support; means for opening said intermediate valve during such movement of said bell; means for actuating said control valve, after said intermediate valve is open, to place said bell in communication with said source; and means for moving said cap to engage and seal'such' closure while said bell is in vacuum-applying engagement'with such container and both said valves are open;

FELICE GEORGE PASO'ITI.

REFERENCES CITED The following references are of record in the file of this patent;

UNITED STATES PATENTS 

